1

Robotics Programmer Jobs in Seattle, WA (NOW HIRING)

As a Robotics Software Engineer, you will be at the forefront of designing advanced algorithms and systems to optimize the efficiency of our robotic fleet. Your work will be critical in ensuring ...

As a Robotics Software Engineer, you will be at the forefront of designing advanced algorithms and systems to optimize the efficiency of our robotic fleet. Your work will be critical in ensuring ...

You will work with cross-functional partners across the Amazon Fulfillment Technology & Robotics engineering, safety, product strategy, software, supply chain, third-party installers, contracted ...

You will work with cross-functional partners across the Amazon Fulfillment Technology & Robotics engineering, safety, product strategy, software, supply chain, third-party installers, contracted ...

This field engineering position demands strong technical skills for deploying robotic equipment, including mechanical and electrical systems, network configurations, and software coordination. The ...

next page

Showing results 1-20

Robotics Programmer information

See Seattle, WA salary details

$19

$41

$60

How much do robotics programmer jobs pay per hour?

As of Jul 14, 2026, the average hourly pay for robotics programmer in Seattle, WA is $41.97, according to ZipRecruiter salary data. Most workers in this role earn between $34.76 and $49.23 per hour, depending on experience, location, and employer.

What is a Robotics Programmer?

A Robotics Programmer is a professional who writes, tests, and maintains the software that controls robotic systems and automation equipment. They work with various programming languages and platforms to ensure robots perform specific tasks efficiently and safely. Robotics Programmers often collaborate with engineers and technicians to integrate robotics into manufacturing, healthcare, logistics, and other industries. Their work is essential for advancing automation and improving productivity in many fields.

Who are the big 4 in robotics?

The 'Big 4' in robotics typically refers to Boston Dynamics, FANUC, ABB, and KUKA, which are leading companies known for their advanced industrial and service robots. Robotics programmers often work with these companies' hardware and software platforms, requiring knowledge of automation, programming languages like Python or C++, and robotics systems integration.

Is robotics a dead field?

Robotics programming is an active and growing field, with increasing demand for skills in automation, control systems, and programming languages like Python and C++. The industry continues to evolve with advancements in AI, machine learning, and sensor technology, making robotics a viable career option for those with relevant technical expertise. Continuous learning and certification in robotics tools are important for staying current in this field.

Is robot programming a good career?

Robot programming is a growing field that involves developing software to control robotic systems, often requiring knowledge of programming languages like C++ or Python and familiarity with automation tools. It offers opportunities in manufacturing, healthcare, and research, with a demand for technical skills and problem-solving abilities. The career can be stable and rewarding for those interested in technology and engineering.

What are the key skills and qualifications needed to thrive as a Robotics Programmer, and why are they important?

To thrive as a Robotics Programmer, you need strong programming skills (especially in languages like Python, C++, or ROS), a background in engineering or computer science, and a solid understanding of robotics principles. Familiarity with industrial robotics platforms, simulation tools, and control systems, along with certifications in robotics or automation, is highly beneficial. Analytical thinking, problem-solving abilities, and effective teamwork are essential soft skills for excelling in this role. These skills and qualities are crucial for successfully developing, deploying, and troubleshooting robotic systems in dynamic technical environments.

What is the difference between Robotics Programmer vs Robotics Engineer?

AspectRobotics ProgrammerRobotics Engineer
Required CredentialsTypically an associate's or bachelor's degree in robotics, computer science, or related field; programming certificationsUsually a bachelor's or master's degree in robotics, mechanical, or electrical engineering; advanced certifications may be preferred
Work EnvironmentFocuses on coding, testing, and debugging robot software; often in labs or development settingsDesigns, develops, and integrates robotic systems; works in labs, manufacturing plants, or field environments
Employer & Industry UsageCommon in manufacturing, automation, and research institutionsFound in industrial automation, aerospace, automotive, and research sectors

While both roles involve working with robotic systems, Robotics Programmers primarily focus on writing and testing software code for robots, whereas Robotics Engineers design and develop entire robotic systems, including hardware and software integration. The roles often overlap, but the engineer's scope is broader, involving system design and implementation.

What are some common challenges Robotics Programmers face when integrating new robotic systems into existing manufacturing workflows?

Robotics Programmers often encounter challenges such as ensuring compatibility between new robots and legacy equipment, troubleshooting communication protocols, and minimizing downtime during system integration. They must also adapt programming to accommodate unique production requirements and collaborate closely with engineers, operators, and maintenance teams to address unexpected issues. Effective problem-solving and clear communication are key to successfully integrating new robotic systems while maintaining productivity and safety.

How much do robot programmers make?

Robot programmers typically earn between $60,000 and $100,000 annually, depending on experience, location, and industry. Advanced skills in programming languages like Python or C++ and familiarity with robotics software can lead to higher salaries.
What are popular job titles related to Robotics Programmer jobs in Seattle, WA? For Robotics Programmer jobs in Seattle, WA, the most frequently searched job titles are:
Robotics Applications Engineer

Robotics Applications Engineer

Globe Machine

Tacoma, WA

Full-time

Re-posted 12 days ago


Job description

Since 1917, Globe Machine has been a manufacturer of industrial machines, systems, and plants for advanced composites, building products, and pulp & paper.

We are seeking a Robotics Applications Engineer to support robot programming, integration, startup, and technical execution for advanced automation projects.

If you thrive in hands-on engineering environments, enjoy solving complex motion and manufacturing challenges, and want to work on one-of-a-kind systems, this is an outstanding opportunity.

This position is located in Tacoma, WA.

WHAT YOU'LL DO

  • Program, configure, and integrate FANUC and other robotic systems for custom manufacturing equipment.
  • Develop robot paths, motion sequences, tooling logic, and production workflows.
  • Support PLC integration, I/O mapping, HMI interaction, and full machine communication.
  • Collaborate with Mechanical, Controls, and Project Engineering teams during design and build phases.
  • Support robot testing, debug, run-off, and commissioning activities.
  • Optimize cycle times, repeatability, safety, and overall system performance.
  • Troubleshoot robotic cells, automation systems, sensors, and controls issues.
  • Assist with customer training, startup support, and technical documentation.
  • Travel domestically and internationally for installations and commissioning.

WHAT MAKES YOU A GREAT FIT

  • Over 3 years of industrial robotics programming/integration experience.
  • Strong FANUC robot programming experience required.
  • Experience with PLC systems such as Allen-Bradley, Siemens, or Mitsubishi preferred.
  • Ability to troubleshoot electrical, controls, mechanical, and motion issues.
  • Comfortable reading schematics, layouts, and engineering drawings.
  • Experience with manufacturing automation, machine integration, or custom equipment.
  • Strong communication skills with customers and internal engineering teams.
  • Able to travel globally as projects require.
  • Must possess a valid driver's license and possess, or be able to obtain, a Passport and Transportation Workers Identification (TWI) card.
  • Must be able to occasionally lift up to 50 pounds.